Publications

Hallang, H; Los, SO; Hiemstra, JF (2022). Permafrost, thermal conditions and vegetation patterns since the mid-20(th) century: A remote sensing approach applied to Jotunheimen, Norway. PROGRESS IN PHYSICAL GEOGRAPHY-EARTH AND ENVIRONMENT, 46(5), 716-736.

Abstract
Northern high-alpine regions are currently experiencing rapid warming, which often results in the degradation of sub-surface permafrost and the upslope advancement of vegetation. The present study combines remotely sensed MODIS Land Surface Temperatures (LSTs) and the Normalised Difference Vegetation Index (NDVI) with observed air temperatures to model the thermal and vegetational dynamics in NE Jotunheimen (Norway) for the period 1957-2019. An altitudinal transect on the north-facing slope of Galdhopiggen was used for ground truthing. Results indicate a substantial warming trend since the late 1950s, accompanied by increased NDVI. The spatial and temporal patterns of observed change were not uniform. Winter surface temperatures increased most rapidly, by 2.4-2.8 degrees C at mid- and low altitudes (600-1500 m a.s.l.). The highest increases in NDVI (by similar to 0.1) were detected during the growing season (April-September) and over the mid-range altitudes (1050-1500 m a.s.l.), that is, above the tree line on Galdhopiggen. We attribute this to increased shrubification at these altitudes. Our results confirm that the surface temperatures near the previously estimated lower altitudinal limit of permafrost (similar to 1450 m a.s.l.) have continued to increase during the past decade, likely facilitating further permafrost degradation. Finally, we demonstrate that mapping remotely sensed mean growing season LSTs below 0 degrees C can be used to identify areas suitable for continuous sub-surface permafrost, and mean June-September LSTs above 7 degrees C can detect areas suitable for tree (Betula pubescens) growth in NE Jotunheimen.

DOI:
10.1177/03091333221093756

ISSN:
1477-0296